Post on 15-Sep-2020
2 Getting Started/Lab Programming
October 2013
MODULE 2LAB PROGRAMMING
2 Getting Started/Lab Programming
P2
1. Getting Started
2. Scoping the Project
3. Lab Programming
•What is programming?
• Information gathering
•Organizing and presenting data
2 Getting Started/Lab Programming
P3
Getting Started
•Project Manager
- Owner representative - Responsible for budget and schedule - Conduit to the organization - Single point of communication
•Key User Representative for entire project or at least for each user group / department
•Identify key users to inform design team on their requirements
2 Getting Started/Lab Programming
P4
Who?
Develop The List Of Key Stakeholders:
•Owner
•Academic Faculty
•Senior Researchers (PI’s)
•Lab Managers
•Graduate Students
•Occupational Health and Safety departments
•Lab supply personnel
•Building Facility personnel
•IT managers / IT maintenance
•Security Department
•Building Maintenance personnel
2 Getting Started/Lab Programming
P5
Develop A Series Of Committees For Feedback And Decision Making
•Building Committee
•“Grand” User Committee
•Specific User Committees
•One key decision maker and one conduit for information flow
•One clear line of communication flow
•One key authority chain for committee decisions. Are they advisory or do they make decisions?
•What happens when flow is subverted?
COMMITTEES
INFORMATION FLOW
STEERING COMMITTEE
GRAND USER COMMITTEE
SPECIFIC1
SPECIFIC2
SPECIFIC3
STEERING COMMITTEE
CONSULTANTPROJECT
MANAGERUSERS
2 Getting Started/Lab Programming
P6
•Consultant Team
- Programmer - Architect and Engineers - Experienced firms and people (not learning on your project)
2 Getting Started/Lab Programming
P7
•Consider construction procurement model
- eg. Design, Bid, Build Construction Management Construction Management at Risk Design Build
- Affects design process - Affects schedule - Can assist with buildability issues & costing
- Can affect quality of end product
2 Getting Started/Lab Programming
P8
•Scheduling Workshop
- With the entire team Owner, Consultants and Builder - Establish completion date - Together build milestones, deliverables and action dates - Team building
2 Getting Started/Lab Programming
P9
Scoping the Project
Understand Key Drivers
•Research grant
•Private donor
•Large pharmaceutical
•Venture capital
•Company expansion
•Special funding programs
•Government funding
2 Getting Started/Lab Programming
P10
LEVEL 6000
MAIN ENTRY
SFU SERVICE SPACE
ENTRYFOYER
CREM
FUTURE
CREM
CFI Area CREM Diagram
Understand The Rules Of The Game
•If a research grant there are significant reporting – area rules; room naming conventions
•What about other requirements – LEED; University processes; site master-planning
•Organization’s policies?
•Landlord requirements?
2 Getting Started/Lab Programming
P11
Establish Key Goals with Project Manager / Client Group
•Meeting with key stakeholders
•Whose agenda is the loudest?
•Are there un-stated elements?
•Phasing?
•Sustainability?
2 Getting Started/Lab Programming
P12
Work With The Budget
•BMW or Chevy?
•Does funding come with a time line?
?
2 Getting Started/Lab Programming
P13
Lab Programming
What A Program Is Not:
•Only just numbers or areas
•Plan or drawing of space
Space List
Program of Requirements
Kwantlen Polytechnic University PRELIMINARY SPACE LIST
Langley, BC
CHERNOFF THOMPSON ARCHITECTS Project 29032 February 10, 2010
PRELIMINARY SPACE LIST Existing Room
LABS:
All labs should incorporate the
following: • Maximize storage
• Adequate lighting is important • Safe traffic flow patterns are
critical • Labs design should incorporate
sustainable features
Room: 1325 Biology/Horticulture/Sustainability Science • Fixed benches with electrical
outlets and one sink per bench • Fumehood
• Will be used as a teaching space for theory and technique
• Space for large equipment such as salt water tanks, fridges, etc
• Access to prep space and to the bunker storage site
Room: 1345 Chemistry/Horticulture
• Benches with gas, air, power
and water • Fumehoods
• Distilled water • Access to prep space and to the
bunker storage site • Access to balance room
• Access to analytical equipment room
Room: 1365 Environmental Protection Lab/Soil
Chemistry • Benches with gas and air; one
side of bench to have a sink running along entire length with
5 compartments and the opposite side of the bench to
have a one compartment sink
PROPOSED AREA S.M.
187
106
(existing)
137
EXISTING AREA S.M.
187
106
98
2 Getting Started/Lab Programming
P14
What A Program Is:
•Defines the problem, doesn’t solve it
•An understanding of the needs
University of Washington Ecogenomics Lab
2 Getting Started/Lab Programming
P15
The A-3 ACU – CAGEWASH University SCIENCE BUILDING of Victoria Page 4 4 COMPONENT PLANNING CRITERIA
Chernoff Thompson Architects 15/04/05 Project # 24040.1
Functional Relationship Diagram Space Requirements Ref Space Units nsm/unit nsm Remarks
01 Dirty Cage Wash 1 62 62 Cage washer 02 Clean Cage Wash 1 50 50 Autoclave 03 Clean Staging/Storage 1 23 23 Filling stations 04 05
Total 135
Levels of Programming
•Strategic
•Master
•Functional
•General Space Planning
•Detailed Space Planning
•Room by Room Data specific information
2 Getting Started/Lab Programming
P16
Information In Program
•Clear and usable by architects and engineers
•Practical
•Not too long
Can include:
•Appendices
•Room data sheets
•Equipment cut sheets
Sample Program Page 1
LABORATORYWet Chemistry
from other areas to avoid cross contamination -Leach area; could be near Digestion and not in wash-up as is currently -Cyanide room; a separate room to avoid cross-contamination-need transferring stations independent from digestion hoods for increased safety and productivity
FUNCTIONAL RELATIONSHIPS
AREASSpaces
Weighing: Standards storage room Weigh stations (30@6’X8’) Equipment storage Small PC stations (4 3 @40ft²) Special samples desk Norm station
PPE Storage
Supervisor workstation Weighing manager workstation
Subtotal Weighing
321440
8016040
120
6464
2000
Characteristics
-16’ long shelves secured storage room-need new ergonomic design, need central vacuum (flat screen?)-incl. storage area for supplies and gloves
-sits on 2 desks (small area) 10’ x 4’; weighing bench Equip = 7’ x 2’, sits on work benchbelow work benches-to be near weighing area
Net to Gross ratio = 1.1% (walls, corridors, etc. within the department) Weighing Gross Area = 2200ft² Ac-tual = 2315ft² x 1.1% = 1783
-repetitive nature of weighing task requires ergonomic study -weigh room is dusty; currently Hepa Vacuums at each station for use by staff-prefer the sample box storage in one area in the room for easy access and alphabetizing-the sample box storage area includes 2 days active storage -sunlight on balances can affect readings-green screens of weighing computers need careful lighting coordination-a separate wash-up room required-storage for racks and Teflon tubes -Norm station has radioactive material under plastic cover-transferring from flasks done under canopy-style fume hoods; further study on this process needed-Digestion is a very corrosive environment-fume hoods are all perchloric-style-samples are stored under canopy-style fume hood; need to study if this is best storage method-Hot Blocks are located in fume hoods and require significant power -independent acid bottle changing station-bigger bubbler station to hold 3 sample carts
KEY ISSUES
Net Area(ft²)
1221031
801104020
1334045
1488
1621
2 Getting Started/Lab Programming
P17
Process of Programming:
1. Definition of scope before design
2. Gathering data
3. Synthesizing data
4. Understand wants vs. needs
5. Produce a final reference document
Sample Program Page 2
LABORATORYWet Chemistry
AREAS
(Current area = 5131ft²: Weighing = 2767ft², Digestion = 2364ft²)
Department Gross Area = 646 ft²
HOODS (6’x9’)
14 X 6’ perchloric 2 X 6’ Aqua Regia ME 3 X 6’ Aqua Regia AU = 19 X 6’ hoods 19 X 54 ft² = 1026 ft²
OTHER 1 X 12’ canopy (digestion 2’ depth) 6 X 4’ fusion furnace canopy2 X 6’ canopy (transfer 4’ depth) 1 X 12’ canopy (transfer 4’ depth) 34’ X 9’ = 306 ft²
*include for 30, 6’ fume hoods within 5 year horizon. First Year: 12 perchloric-type for test tube digestion; 6 fume hoods with 2 hot plates each; 1, 12’ long transferring canopy; 2 Aqua Regia Hoods.-adjoining bench space near fume hoods-allow for bench space equal to fume hood length; consider different arrangements at hoods and lab bench space for more efficient / safe work area-allow for transfer area at digestion entry (200ft²)
Spaces
Digestion: Cyanide room Main digestion lab: Hoods (19 x 54ft² x 1.3) Canopy (34’ x 9’ x 1.3) Bench Space (19 x 36ft² x 1.3) Bubbling Area (12’ x 8’ x 1.3) Wash up area Sample Holding Solutions (12 x 15 x 1.3) Feeder Room Area (12 x 15 x 1.3) Manager workstation Supervisor workstation office PPE Storage Leach Area +MS 81 Area @ 135ft² require 2 Canopies on top of 2 FurnacesSubtotal Digestion:
Net Area(ft²)
1743500
646480
200
______
Characteristics
-(current = 174ft²)-(includes geo, assay, fusion) current = 2011ft² *SEE NOTE BELOW
1350400 (398)890 (889)125 Adj to Transfer Canopies and Dumping200 Adj to Weighing; Including Dumping250 (234)
(234) Shelving Area for weighed samples and clean flasks Adj to Weighing and Wash Up Area-just outside main lab with window into main lab“”
Net to Gross ratio = 1.1% (walls, corridors, etc. within the department) Digestion Gross Area = 4532 ft²
Net Area(ft²)
2553190
1000260640140188410
25010012070
135
______4120
2 Getting Started/Lab Programming
P18
Information Gathering
Gathering Data -For Each Department / Group
•What do they do?
•Staffing and hours of work
•Key issues
•Major space characteristics
•Rooms or spaces needed and ideal dimensions
•Key adjacencies
•List of major equipment
•Future plans
SFU TASC II Bennet Lab
2 Getting Started/Lab Programming
P19
Visit Sites – Project & Other Examples
•Tour with knowledgable users
•Identify issues, priorities
•Limitations / opportunities
- How much space - New vs. Reno - Context - More than one possible site? - Difficult to route new drains? - HVAC supply capacity - Power limits - Routing for duct shafts? - Access to natural light
Site Visit Environment Canada Lab
Initial Site Visit SFU Podium 2
2 Getting Started/Lab Programming
P20
Where / How To Gather Information:
Space Criteria – References?
Standards
•Biosafety Levels;
•Clean Room Levels
•Transgenic Requirements
•Funding Agency
•CSA/NIH Guidelines
•Other?
Rules Of Thumb
•Area per P.I.
•Lab bench area / lineal distance per worker
•% support / prep. vs. Lineal lab bench
•Area per equipment?
What Do They Have For Space Now?
•Area summaries
•Lists
•Photos
2 Getting Started/Lab Programming
P21
Metrics - “Rule of Thumb:”
The National Institutes of Health Standards / Principal Investigator
m² ft²Laboratory work space 16.5 177.5
Laboratory support space 8.25 89
Research staff space 2.79 30
Ancillary 0.84 9
Lab admin 2.88 31
Optimal Area 31.26 336.5
Work AdminOfficeAncillarySupport
2 Getting Started/Lab Programming
P22
Process: Set Up A Series Of MeetingsPre- Meeting 1 Questionnaire:
Meeting 1.0 – Review the above
Meeting 1.5 – Review existing situation on site – note areas of concern (boxes piled up, smells, spills, cleanliness issues, crowding, deteriorating finishes)
1. Who are you?
2. What do you do?
3. How do you fit in your organization?
4. What will you do differently in the future?
5. What works well now?
6. What doesn’t work?
7. What are your key concerns?
2 Getting Started/Lab Programming
P23
•Wet lab; dry lab; office space
•Structural concerns – weight, hanging
•Large scale equipment (over 6’0” in any direction?)
•Fume hoods•Radioisotopes•Perchloric hoods•Create radiation /
shielded for radiation
•Lab waste•Acid neutralization•Biohazards
/ chemical / radioactive – type and quantities
•Neutralization•Air requirements•Glass – washing•Chilled process water•Clean room
•Cooled server room•Emergency power•Specialized lighting•Controlled lighting•Specialized power
(not 120/20A)•Heat rejecting
equipment•Piped lab gases•Pure water-quality
ProcessMeeting 2 – Detailed Information:
2 Getting Started/Lab Programming
P24
Meeting Follow Ups With Users For Special Topics
Meet With:
•Occupational Health and Safety departments
•Lab supply personnel
•Building Facility personnel
•IT managers / IT maintenance
•Security Department
•Sustainability Key Stakeholders
•Building Maintenance personnel
•Others ...
2 Getting Started/Lab Programming
P25
Shared Services
•Look for Duplicate Functions
- Dishwashing - Sterilizing - Storage - Chemical storage - Gas storage - Meeting - Library - Special Equipment
•Find a Champion
•Consider Shared Areas with Fences
UVic Chemical Storage
2 Getting Started/Lab Programming
P26
•Servicing Areas - Program These Too!
- Service - Delivery/receiving - Staging - Recyling - General storage - Security - IT - Facility equipment - Maintenance personnel space - Staff lockers
2 Getting Started/Lab Programming
P27
Space List
Space Fit
Analyzing the Data
•Prepare space list with areas
•Identify key space determinants
•Produce space relationship diagrams
•Space fit studies
Example Work Flow Diagram
2 Getting Started/Lab Programming
P28
Organizing & Presenting the Data
•Needs to be clear and usable by Architects and Engineers
•Readable by Owners and scientists
•Practical
•Not too long
•Simple diagrams
Relationship Diagram
2 Getting Started/Lab Programming
P29
Organizing & Presenting the Data
•Deliverable
- Report book - Verbal description of users and their functional needs
- Description of groups - Identify numbers of people now & projected, plus roles
- Address future growth and change anticipated
- Security - Final space list with areas
Program Example
2 Getting Started/Lab Programming
P30
Can Include Detailed Appendices With:
•Room data sheets
•Equipment cut sheets
•Chemical lists
•Test fit layouts
•Adjacency Diagrams
Equipment Cut Sheet
2 Getting Started/Lab Programming
P31
Equipment Lists:
•Start it at programming
•Working document
•Continues through entire project
•Useful for design, purchasing, moving, contractor responsibilities
•Supplemented by cut sheets / product data
•Keep track of the updated versions
UNIVERSITY OF WASHINGTON EQUIPMENTBENJAMIN HALL BUILDING, STRAND LABEQUIPMENT COORDINATION LOG PROJECT #29038
Con
trac
tor
Supp
lier 1
Supp
lier 2
Use
d?
New
?
Exis
ting?
Hei
ght (
in.)
Wid
th (i
n.)
Dep
th (i
n.)
Wei
ght (
lb)
Ben
ch T
op (Y
-yes
, N
-no
, M-m
aybe
)
Phas
e
Cyc
le
HVP LV
P
Am
ps/W
atts
Ala
rm S
igna
l
Emer
genc
y Po
wer
Out
let T
ype
Gas
Nitr
ogen
Com
p.A
ir
City
Wat
er
Stea
m
Dra
in
Exha
ust
Con
dens
ate
DI
UPS
Inst
itute
Lan
BA
S
Div
ersi
ty F
acto
r
Hea
t to
Roo
m
Out
let H
eigh
t
DI W
ater
Pota
ble
Wat
er
Non
Pot
able
Dra
in Date Date
1 Wilcox 169 N 5 110
2 Wilcox 169 N 5 110
3 Wilcox 169 N 7.5 110
4 Wilcox 169 dependsM 7.5 110
5 Wilcox 169 N 10 220
6 Wilcox 169 M 11 110
7 Wilcox 169 M 15 110
8 Wilcox 169 Y 8.4 110
9 Wilcox 169 Y 8.4 110
10 Wilcox 169 Y 1.28 110 x Transilluminator, computer, printer should be close
11 Wilcox 169 Y 1.8 110
12 Wilcox 169 Y 13.75 110
13 Wilcox 169 Y 1.5 110
14 Wilcox 169 Y 15 110
15 Wilcox 169 M 14 110
16 Wilcox 169 Y 2 110 Access to compressed He, Ar tanks, computer
17 Wilcox 169 Y 0.87 110
18 Wilcox 169 Y 110
19 Wilcox 169 Y 5 110
20 Wilcox 169 Y 15 110
21 Wilcox 169 Y 0.8 110
22 Wilcox 169 N 20 220
23 Wilcox 169 Y 8 110
24 Wilcox 169 Y 5.2 110
25 Wilcox 169 Y 0.25 110
26 Wilcox 169 Y 5 110
27 Wilcox 169 Y 8 110
29 Wilcox 169 Y 0.08 110
30 Wilcox 169 Y 0.25 110
31 Wilcox 169 Y 10 110
32 More 201 Y 10 110
33 More 201 Y 10 110
34 Glass bead sterilizer Wilcox 169 8 5 5.5 Y 0.82
35Water purifier Wilcox 169 18.1 21.7 10.6 44 N .7? 110 x x
4/14/201 Plate rack 3 lights Wilcox 169 77 18 48 N 5
374 computers Y
Line
No.
Equipment Description
Equipment Provided by:
Location of Equipment
(Room)Qua
ntity
Equi
pmen
t No.
Tend
er R
equi
red?
Department:
Size Requirements Electrical Load Requirements (refer to attached Electrical Equipment List)
Equipment Specifications
Utility Requirements LOAD (KVA)
Updated:
Completed by (name):
MECHANICAL
AnticipatedDelivery
Time
RequiredDelivery
Date
CommentsVendor Name
CHERNOFF THOMPSON ARCHITECTS 4/14/10 Page 1
2 Getting Started/Lab Programming
P32
UNIVERSITY OF WASHINGTON EQUIPMENTBENJAMIN HALL BUILDING, STRAND LABEQUIPMENT COORDINATION LOG PROJECT #29038
Con
trac
tor
Supp
lier 1
Supp
lier 2
Use
d?
New
?
Exis
ting?
Hei
ght (
in.)
Wid
th (i
n.)
Dep
th (i
n.)
Wei
ght (
lb)
Ben
ch T
op (Y
-yes
, N
-no
, M-m
aybe
)
Phas
e
Cyc
le
HVP LV
P
Am
ps/W
atts
Ala
rm S
igna
l
Emer
genc
y Po
wer
Out
let T
ype
Gas
Nitr
ogen
Com
p.A
ir
City
Wat
er
Stea
m
Dra
in
Exha
ust
Con
dens
ate
DI
UPS
Inst
itute
Lan
BA
S
Div
ersi
ty F
acto
r
Hea
t to
Roo
m
Out
let H
eigh
t
DI W
ater
Pota
ble
Wat
er
Non
Pot
able
Dra
in Date Date
1 Wilcox 169 N 5 110
2 Wilcox 169 N 5 110
3 Wilcox 169 N 7.5 110
4 Wilcox 169 dependsM 7.5 110
5 Wilcox 169 N 10 220
6 Wilcox 169 M 11 110
7 Wilcox 169 M 15 110
8 Wilcox 169 Y 8.4 110
9 Wilcox 169 Y 8.4 110
10 Wilcox 169 Y 1.28 110 x Transilluminator, computer, printer should be close
11 Wilcox 169 Y 1.8 110
12 Wilcox 169 Y 13.75 110
13 Wilcox 169 Y 1.5 110
14 Wilcox 169 Y 15 110
15 Wilcox 169 M 14 110
16 Wilcox 169 Y 2 110 Access to compressed He, Ar tanks, computer
17 Wilcox 169 Y 0.87 110
18 Wilcox 169 Y 110
19 Wilcox 169 Y 5 110
20 Wilcox 169 Y 15 110
21 Wilcox 169 Y 0.8 110
22 Wilcox 169 N 20 220
23 Wilcox 169 Y 8 110
24 Wilcox 169 Y 5.2 110
25 Wilcox 169 Y 0.25 110
26 Wilcox 169 Y 5 110
27 Wilcox 169 Y 8 110
29 Wilcox 169 Y 0.08 110
30 Wilcox 169 Y 0.25 110
31 Wilcox 169 Y 10 110
32 More 201 Y 10 110
33 More 201 Y 10 110
34 Glass bead sterilizer Wilcox 169 8 5 5.5 Y 0.82
35Water purifier Wilcox 169 18.1 21.7 10.6 44 N .7? 110 x x
4/14/201 Plate rack 3 lights Wilcox 169 77 18 48 N 5
374 computers Y
Line
No.
Equipment Description
Equipment Provided by:
Location of Equipment
(Room)Qua
ntity
Equi
pmen
t No.
Tend
er R
equi
red?
Department:
Size Requirements Electrical Load Requirements (refer to attached Electrical Equipment List)
Equipment Specifications
Utility Requirements LOAD (KVA)
Updated:
Completed by (name):
MECHANICAL
AnticipatedDelivery
Time
RequiredDelivery
Date
CommentsVendor Name
CHERNOFF THOMPSON ARCHITECTS 4/14/10 Page 1
Equipment List
2 Getting Started/Lab Programming
P33
Hazardous Materials List:
•Start it at programming
•Important for Code Analysis
•Keep track of the versions
HAZARDOUS MATERIALS
Lab PIRoom No. Material Manufacturer Hazard Class
Liquid Gallons
Solid Pounds Gas
Boiling Point
Flash Point
Carcino‐ genic
OSHA Hazards
Monthly Usage
Flamm. Cabinet
State (L, S, G) Incompatablility
Name #### Glycerin C IIIB 350F Y L hydrogen peroxide, bromide, and chromic acidAntifreeze C IIIB 260F Y L strong oxidizing agents, such as chlorates,nitrates, peroxides,Biodiesel C IIIB 55 321F L
Diesel C II 55 >125F combustible L
acetic acid, glacial C II 1.06 103F combustible
Hydrogen Flammable gas 300 G extrememly flammable in presence of open flames, sparks and static discharge & oxidizing materialsacetone F IB 1.06 flammablepotassium hydroxide Cor 500g Corrosivesodium hydroxide Cor 1Kg Corrosivemethylene chloride F IC 1.06 flammable L
chloroform Non Flammable 0 53health hazard
Strong caustics and chemically active metals such as aluminum, magnesium powder, sodium, or potassium; acetone fluorine
PROJECT NAME
chloroform Non‐Flammable 0.53 hazard potassium; acetone, fluorine
Methane Flammable gas 200 G extrememly flammable in presence of open flames, sparks and static discharge & oxidizing materialstrifluoroacetic acid Cor 0.03 Corrosivepotassium hydroxide 0.01N, in isopropanol Non‐Flammable 0.26 Highly reactive with acids. Reactive with organic materials, metals, moisture.Potassium Cyanide Aldrich Poison 25 gm
Potassium Hydroxide Sigma NF 500 gm N/AVery hazardous in case of skin contact (corrosive, irritant), of eye contact (irritant, corrosive), of ingestion, of inhalation.
potassium chloride reference solution conductivity standard Non‐Flammable 0.26nitric acid Cor 0.66 Corrosivesulfuric acid Cor 0.13 Corrosivetoluene F IB 1.06 flammablehexanes F IB 1.06 flammable
2‐propanol F IA 1.06 54F
Heat, flame, strong oxidizers, acetaldehyde, acids, chlorine, ethylene oxide, hydrogen‐palladium combination, hydrogen peroxide‐sulfuric acid combination, potassium tert‐butoxide, hypochlorous acid, isocyanates, nitroform, phosgene, aluminum, oleum and perchloric acid.
acetone, >= 99.5% F IB 1.06benzene F IB 1.06benzene F IB 1.06acetonitril F IB 1.06N‐Propl Bromide, Aliphatic Alcohol, and Butylene Oxide (I,2 Epoxybutane)
Vishay CSM‐2 Degreaser NFP 0.09
98% 2‐Propanol and 2.0% n‐Phenyldiethanolamine
Vishay M‐Bond 200 Catalyst‐C F 1B 0.03
Methyl 2‐Cyanoacrylate, Ploy Methyl Methacrylate, and Hydroquinone
Vishay M‐Bond 200 Adhesive C IIIA 0.03
Ethanol, 2‐Butanol, Rosin, 2‐Propanol, Methanol, and Dimethylammonium Chloride
Vishay M‐Fulux AR (soldering flux) F 1B
0.03
Tin, Lead, Antimony, and Rosin Vishay Solder NFP 1Isopropyl Alcohol, and Toluene Vishay M‐Line Rosin Solvent F 1B 0.03Xylene, Ethyl Benzene, and Oil Modified Polyurethane
Vishay M Coat A Air Drying Polyurethane
C IIIB 0.03
Methylene Chloride, Chlorobromomethane, and rosin soap
Stress Coat ST‐70F/21C Brittle Coating
NFP 0.25
Aromatic Hydrocarons, Xylenes (O‐, M‐, P‐ Isomers), and Isobutane / Propane Mixture
Tracer Tech Penetrant 300AFlammabl Aerosol
0.09
Vi l l E t C i R i S R i F1C 10Vinlyl Ester Corrosion Resin Spray Resin F1C 10NOROX Mekp‐9H Resin Catalyst C3A 1Loctite Brand Hysol Epoxy Hysol Resin w/ catalyst F1A 1Ethanol F 1B 8 4 GallonsPerchloric Acid F0, H3, R3, Contact 4 0.13 20 mlPicric Acid Class 1.1D Explosive 0.26 explosive 50 mlHexane H3, F3, R1, Contact 2 0.26 50 mlXylene F3.3, H2, FIC 1.32 flammable 200 mlIsopropyl Alchol F 1B 0.26 flammble 250 mlSodium dodecyl sulfate C IIIB 25 gN,N,N',N'‐Tetramethylethylenediamine (TEMED)
F IB 25 g
1
2 Getting Started/Lab Programming
P34
HAZARDOUS MATERIALS
Lab PIRoom No. Material Manufacturer Hazard Class
Liquid Gallons
Solid Pounds Gas
Boiling Point
Flash Point
Carcino‐ genic
OSHA Hazards
Monthly Usage
Flamm. Cabinet
State (L, S, G) Incompatablility
Name #### Glycerin C IIIB 350F Y L hydrogen peroxide, bromide, and chromic acidAntifreeze C IIIB 260F Y L strong oxidizing agents, such as chlorates,nitrates, peroxides,Biodiesel C IIIB 55 321F L
Diesel C II 55 >125F combustible L
acetic acid, glacial C II 1.06 103F combustible
Hydrogen Flammable gas 300 G extrememly flammable in presence of open flames, sparks and static discharge & oxidizing materialsacetone F IB 1.06 flammablepotassium hydroxide Cor 500g Corrosivesodium hydroxide Cor 1Kg Corrosivemethylene chloride F IC 1.06 flammable L
chloroform Non Flammable 0 53health hazard
Strong caustics and chemically active metals such as aluminum, magnesium powder, sodium, or potassium; acetone fluorine
PROJECT NAME
chloroform Non‐Flammable 0.53 hazard potassium; acetone, fluorine
Methane Flammable gas 200 G extrememly flammable in presence of open flames, sparks and static discharge & oxidizing materialstrifluoroacetic acid Cor 0.03 Corrosivepotassium hydroxide 0.01N, in isopropanol Non‐Flammable 0.26 Highly reactive with acids. Reactive with organic materials, metals, moisture.Potassium Cyanide Aldrich Poison 25 gm
Potassium Hydroxide Sigma NF 500 gm N/AVery hazardous in case of skin contact (corrosive, irritant), of eye contact (irritant, corrosive), of ingestion, of inhalation.
potassium chloride reference solution conductivity standard Non‐Flammable 0.26nitric acid Cor 0.66 Corrosivesulfuric acid Cor 0.13 Corrosivetoluene F IB 1.06 flammablehexanes F IB 1.06 flammable
2‐propanol F IA 1.06 54F
Heat, flame, strong oxidizers, acetaldehyde, acids, chlorine, ethylene oxide, hydrogen‐palladium combination, hydrogen peroxide‐sulfuric acid combination, potassium tert‐butoxide, hypochlorous acid, isocyanates, nitroform, phosgene, aluminum, oleum and perchloric acid.
acetone, >= 99.5% F IB 1.06benzene F IB 1.06benzene F IB 1.06acetonitril F IB 1.06N‐Propl Bromide, Aliphatic Alcohol, and Butylene Oxide (I,2 Epoxybutane)
Vishay CSM‐2 Degreaser NFP 0.09
98% 2‐Propanol and 2.0% n‐Phenyldiethanolamine
Vishay M‐Bond 200 Catalyst‐C F 1B 0.03
Methyl 2‐Cyanoacrylate, Ploy Methyl Methacrylate, and Hydroquinone
Vishay M‐Bond 200 Adhesive C IIIA 0.03
Ethanol, 2‐Butanol, Rosin, 2‐Propanol, Methanol, and Dimethylammonium Chloride
Vishay M‐Fulux AR (soldering flux) F 1B
0.03
Tin, Lead, Antimony, and Rosin Vishay Solder NFP 1Isopropyl Alcohol, and Toluene Vishay M‐Line Rosin Solvent F 1B 0.03Xylene, Ethyl Benzene, and Oil Modified Polyurethane
Vishay M Coat A Air Drying Polyurethane
C IIIB 0.03
Methylene Chloride, Chlorobromomethane, and rosin soap
Stress Coat ST‐70F/21C Brittle Coating
NFP 0.25
Aromatic Hydrocarons, Xylenes (O‐, M‐, P‐ Isomers), and Isobutane / Propane Mixture
Tracer Tech Penetrant 300AFlammabl Aerosol
0.09
Vi l l E t C i R i S R i F1C 10Vinlyl Ester Corrosion Resin Spray Resin F1C 10NOROX Mekp‐9H Resin Catalyst C3A 1Loctite Brand Hysol Epoxy Hysol Resin w/ catalyst F1A 1Ethanol F 1B 8 4 GallonsPerchloric Acid F0, H3, R3, Contact 4 0.13 20 mlPicric Acid Class 1.1D Explosive 0.26 explosive 50 mlHexane H3, F3, R1, Contact 2 0.26 50 mlXylene F3.3, H2, FIC 1.32 flammable 200 mlIsopropyl Alchol F 1B 0.26 flammble 250 mlSodium dodecyl sulfate C IIIB 25 gN,N,N',N'‐Tetramethylethylenediamine (TEMED)
F IB 25 g
1Hazardous Materials List
2 Getting Started/Lab Programming
P35
Room Data Sheets:
•List items needed to be covered – including mech and elect.
•What does mech. and elec. need from a program?
2 Getting Started/Lab Programming
P36Architectural / Mechanical Data Electrical / Communications Data